Abstract
Drying and rewetting of soil stimulates soil carbon emission. The Birch effect, driven by these cycles, leads to CO(2) efflux, which can be monitored using real-time mass spectrometry (RTMS). Although soil fungi retain water during droughts, their contribution to CO(2) release during drying-rewetting cycles remains unclear. In this study, we present the first demonstration of integrating micromodels with RTMS to monitor the Birch effect by simulating drought and rewetting. Micromodels were inoculated with axenic fungal culture and dried to assess moisture retention. After drying, RTMS quantified CO(2) release upon rewetting with H(2)(18)O mixtures. Our results showed that soil fungi released CO(2) upon rehydration and immediately utilized the external water source at the pore scale by generating subsequent (46)CO(2). This work is the first to integrate RTMS with microsystems to investigate pore-scale biogeochemistry and the involvement of fungi in the Birch effect.